Induction heating: Difference between revisions
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'''Induction heating''' is a process by which materials that are susceptible to electrical fields are heated by an alternating or varying magnetic field from the use of [[alternating current|alternating current (AC)]]. This changing magnetic field repeatedly induces [[eddy currents]] within the given material. These eddy currents (also known as [[Foucault currents]]) cause a circulating flow of electrons that create an electromagnetic field. This electromagnetic field opposes the applied magnetic field. The opposition of the two fields combined with the relative | '''Induction heating''' is a process by which materials that are susceptible to electrical fields are heated by an alternating or varying magnetic field from the use of [[alternating current|alternating current (AC)]]. This changing magnetic field repeatedly induces [[eddy currents]] within the given material. These eddy currents (also known as [[Foucault currents]]) cause a circulating flow of electrons that create an electromagnetic field. This electromagnetic field opposes the applied magnetic field. The opposition of the two fields combined with the relative resistance of the material can produce a loss of energy in the form of heat. | ||
Revision as of 00:45, 12 February 2010
Induction heating is a process by which materials that are susceptible to electrical fields are heated by an alternating or varying magnetic field from the use of alternating current (AC). This changing magnetic field repeatedly induces eddy currents within the given material. These eddy currents (also known as Foucault currents) cause a circulating flow of electrons that create an electromagnetic field. This electromagnetic field opposes the applied magnetic field. The opposition of the two fields combined with the relative resistance of the material can produce a loss of energy in the form of heat.